SCD DISEASE OVERVIEW
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Sickle cell disease is an inherited blood disorder caused by a mutation in the beta-globin gene. This mutation causes red blood cells to become rigid and sickle-shaped under conditions of low oxygen. The disease predominates in people of African descent, with about 1 in 13 African American babies born with the sickle cell trait. Common symptoms include anemia, pain crises, infections, and organ damage over time. The disease was first described in the early 20th century and the genetic basis was identified in the 1950s. While there is no cure, treatment focuses on prevention of complications, pain management, antibiotics for infections, and hydroxyurea to reduce sickling.
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SCD DISEASE OVERVIEW
- 1. SICKLE CELL DISEASE (SCD) Prepared by: BOLLAM HARI PRIYA RA1711014010127 10-02-2020
- 2. INTRODUCTION ā¢ A group of inheritable blood disorder, also known as HbS disease or SS disease ā¢ Most common symptom of SCD - Sickle Cell Anemia (SCA) ā¢ Due to abnormality in the Hb structure found in RBCs ā¢ This leads to the rigid, sickle-like shape of RBCs under certain circumstances like hypoxia or dehydration 10-02-2020
- 3. HISTORY OF SCD ā¢ SCD has been known to the people of Africa for hundreds of years. In west Africa , various ethic groups gave the condition different names ā¢ 1910: Dr. James Bryan Herrick, a Chicago physician, noted that a patient of his from the West Indies had an anemia characterized by unusual RBCs that were āsickle-shapedā. ā¢ 1927: Hahn and Gillespie showed that the sickling of RBCs was due to hypoxic conditions. ā¢ 1940: Sherman, a student at JHMS, noted optical anisotropy of deoxygenated RBCs suggesting that low oxygen altered the structure of the Hb. ā¢ 1948: Janet Watson, a pediatric hematologist, suggested that the āpaucity of sickle cellsā in the peripheral blood of new born was due to the presence of Fetal Hb (HbF) in the RBCs, which did not have the abnormal sickle Hb seen in adults. ā¢ 1948: Linus Pauling & Harvey showed by a āprotein electrophoresisā that the Hb from patients with SCD is different than that of normal. This made SCD, the first disorder in which an abnormality in a protein was known to be at fault. 10-02-2020
- 4. HISTORY OF SCD : ā¢ 1956: Vernon Ingram & J. A. Hunt sequenced the sickle Hb and showed that a Glu position at position 6 was replaced by Val in SCD. This made the SCD the first genetic disorder whose molecular basis was known. ā¢ 1984: Bone marrow transplantation as cure ā¢ 1995: Hydroxyurea (also known as hydroxycarbamide) became the first and only drug proven to prevent complications of SCD. 10-02-2020
- 5. PREVALANCE ļ According to WHO: ā¢ SCD predominates in Africans ā 1 in 13 black or African American babies are born with sickle cell trait; 1 in 365 black or African American babies are born with SCD ā¢ ~250 million people worldwide are carriers for SCD and other Hb diseases ā¢ 70,000-80,000 individuals with SCD in the US ( 10% of the population is at risk for SCD)- most common inherited blood disorder in the US. ā¢ 1 in 1000-1400 Hispanic-Americans ļ According to the study of tribal population of India by Bhatia et.al and Colah et.al; the prevalence of SCD in them is estimated is ~40%. In Indian population, <1 million cases per year. *The above details are based on 2015 statistics 10-02-2020
- 6. CLINICAL SYMPTOMS Anaemia Swelling in the hands and feet, especially the joints due to inflammation Bacterial infections Silent Stroke Aseptic bone necrosis Pulmonary hypertension and cardio-pulmonary complications Vision problems Renal problems Long term pain Splenic Sequestration Crisis and Asplenia Jaundice and hepatitis Gallstones, etc. Usual onset: 5-6 months of age; life expectancy: 40-60 years 10-02-2020
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- 8. HbA GENETICS AND GENES INVOLVED IN SCD ā¢ SCD is a autosomal recessive condition ā¢ SCD gene mutation probably occurs spontaneously in different geographical areas ā¢ A point mutation in HBB gene cause SCD ā¢ Chr# 11 (11p15.5) - SCD allele ā¢ Why not in infants? Why only in adults? ļ® Types of Hb ļ± Each RBC contains about 270 million Hb molecules 10-02-2020
- 9. Glutamic acid, rich in āve charges, hydrophilic Valine, a branched amino acid, has hydrophobic R groups. ā¢ The gene defect is a single nucleotide mutation (missense mutation) ā¢ Mutation: single base A>T mutation in the triplet encoding the sixth amino acid residue of the ļ¢ globin chain ā¢ This mutation leads to a substitution of valine (Val - V) for glutamic acid (Glu - E) ļ® abnormal Hb ( HbS) An adaptive advantageā¦ Plasmodium ļ® Healthy RBC ļ® completion of life cycle ļ® malaria. Plasmodium ļ® SCD carrier: Sickle-shaped RBC ļ® no completion of life cycle ļ® no malaria spreading. The hydrophobic groups form hydrophobic patches which on hypoxic conditions become nucleation sites. 10-02-2020
- 10. WHAT CAUSES SICKLING??? THE MUTATION HAS NO DIRECT EFFECT ON SICKLINGā¦ MUTATION + HYPOXIA ļ® SICKLING OF RBCs ā¢ In normal oxygen concentrations, NO apparent effects on the structure of Hb but in hypoxic conditions, HbS polymerizes and forms fibrous. ā¢ In the people homozygous for HbS (affected), the presence of long chain polymers change the shape of the RBC from its smooth, biconcave shape into ragged, rigid, fibrous, sickle-like shape. ā¢ Carriers have the symptoms only if they are deprived of O2 (esp. in high altitudes and while doing heavy exercise) or while severely dehydrated HbA HbS O2 O2 Nucleation initiates polymerization 10-02-2020
- 11. HBB/HBS HBB/HBS HBB/HBB 1/4 HBB/HBS 1/2 HBS/HBS 1/4 Inheritance of SCD ā AUTOSOMAL RECESSIVE (AR) PATTERN ā¢ In SCD, at least one of the ļ¢ globin subunit in HbA is replaced with HbS ļ® heterozygous (carrier) ā¢ In SCA, HbS replaces both ļ¢ globin subunits of HbA ļ® homozygous recessive (affected) 10-02-2020
- 12. SCD: DIAGNOSIS, TREATMENT AND MANAGEMENT DIAGNOSIS AND TESTS ā¢ Complete Blood Count: SCD: - Hb levels - 6-8g/dL with a high RBC count. Normal Hb levels: for men,13.5-17.5 g/dL; for women,12-15.5 g/dL(4.7 - 6.1 million /mm3) ā¢ Induction of sickling of RBCs on a blood film by sodium metabisulfite ā¢ Genetic testing by sequencing of SCD loci 11p15.5 ā¢ Urinalysis for renal function testing ā¢ Chest X-ray for pulmonary functions ā¢ Prenatal Tests for SCD: done by foetal blood or amniotic fluid sampling TREATMENT AND MANAGEMENT OF SCD ā¢ Avoid tough exercise and high altitudes ā¢ Consumption of diet rich in Calcium, Vit D and folic acid ā¢ L- glutamine ā starting at the age of 5 yrs ā¢ Simple blood transfusion or exchange transfusion ā¢ Hydroxyurea: increases HbF production, interferes with HbS polymerization ā¢ Bone marrow transplantation, bone grafting, joint-replacement surgery DRUGS: Diclofenac, Naproxen ā non-steroidal anti-inflammatory drugs Hydroxyurea ā anti-neoplastic drug polymerisation Intravenous opioids Diphenhydramine ā anti-histamine Voxelotor - the first haemoglobin oxygen-affinity modulator10-02-2020
- 13. FAMOUS PEOPLE AFFECTED Miles Davis: American Jazz Trumpeter SOCIETIES WORKING ON SCD IN INDIA ā¢Fortis Memorial Research Institute, Gurgaon ā¢Indian Council of Medical Research (ICMR), New Delhi ā¢National Institute of Immunohematology, Mumbai REFERENCES ā¢https://www.intechopen.com/books/thalassemia-and-other-hemolytic-anemias/sickle-cell-disease-a-genetic-disorder-of-beta-globin ā¢https://www.cdc.gov/ncbddd/sicklecell/traits.html ā¢http://www.ijmr.org.in/article.asp?issn=0971-5916;year=2015;volume=141;issue=5;spage=509;epage=515;aulast=Colah;type=3 ā¢https://sickle.bwh.harvard.edu/scd_history.html 10-02-2020